WASHINGTON — New brain imaging research debunks a controversial theory about dyslexia that can impact how it is sometimes treated, Georgetown University Medical Center neuroscientists say.
The cerebellum, a brain structure traditionally considered to be involved in motor function, has been implicated in the reading disability known as developmental dyslexia. However, this “cerebellar deficit hypothesis” has always been controversial. The new research shows that the cerebellum is not engaged during reading in typical readers and does not differ in children who have dyslexia. That finding comes from a new study involving children with and without dyslexia published October 9, 2019, in the journal Human Brain Mapping.
It is well established that dyslexia, a common learning disability, involves a weakness in understanding the mapping of sounds in spoken words to their written counterparts, a process that requires phonological awareness. It is also well known that this kind of processing relies on brain regions in the left cortex. However, it has been argued by some that the difficulties in phonological processing that lead to impaired reading originate in the cerebellum, a structure outside (and below the back) of the cortex.
“Prior imaging research on reading in dyslexia had not found much support for this theory called the cerebellar deficit hypothesis of dyslexia, but these studies tended to focus on the cortex,” says the study’s first author, Sikoya Ashburn, a Georgetown PhD candidate in neuroscience. “Therefore, we tackled the question by specifically examining the cerebellum in more detail. We found no signs of cerebellar involvement during reading in skilled readers nor differences in children with reading disability.”
The researchers used functional magnetic resonance imaging to look for brain activation during reading. They also tested for functional connections between the cerebellum and the cortex during reading.
“Functional connectivity occurs when two brain regions behave similarly over time; they operate in sync,” says Ashburn. “However, brain regions in the cortex known to partake in the reading process were not communicating with the cerebellum in children with or without dyslexia while the brain was processing words.”
The results revealed that when reading was not considered in the analysis—that is when just examining the communications between brain regions at rest—the cerebellum was communicating with the cortex more strongly in the children with dyslexia.
“These differences are consistent with the widely distributed neurobiological alterations that are associated with dyslexia, but not all of them are likely to be causal to the reading difficulties,” Ashburn explains.
In the long run, these researchers believe the findings can be used to refine models of dyslexia and to assist parents of struggling readers to make informed decisions about which treatment programs to pursue.
More information about dyslexia can be found at the International Dyslexia Association or at Understood.org.
This work was supported in part by grants from the Eunice Kennedy Shriver National Institute of Child Health and Human Development (P50 HD040095, R01 HD081078), and the National Center for Advancing Translational Sciences of the National Institutes of Health (TL1 TR001431).
Ashburn SM, Flowers DL, Napoliello EM, Eden GF. Cerebellar function in children with and without dyslexia during single word processing. Human Brain Mapping, 2019
About Georgetown University Medical Center
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